Iiparameter eziphambili zobugcisa
Inkcazo
| Izinto | Iimpawu | |
| Uluhlu lobushushu (℃) | -25℃~+85℃ | |
| Uluhlu lweVolthi(V) | 550~630V.DC | |
| Uluhlu lweCapacitance(uF) | 1000 〜10000uF (20℃ 120Hz) | |
| Ukunyamezelana koMbane | 土 20% | |
| Ukuvuza kwangoku (mA) | Uvavanyo lwemizuzu emi-5 oluyi-≤1.5mA okanye i-0.01cv kwi-20℃ | |
| Ubuninzi be-DF (20)℃) | 0.3(20℃, 120HZ) | |
| Iimpawu zobushushu (120Hz) | C(-25℃)/C(+20℃)≥0.5 | |
| Ukumelana nobushushu | Ixabiso lilinganiswa ngokusebenzisa i-DC 500V insulation resistance tester phakathi kwazo zonke iiterminals kunye ne-snap ring ene-insulation sleeve = 100mΩ. | |
| Ubushushu beVoltage | Faka i-AC 2000V phakathi kwazo zonke iiterminals uze ufake i-snap ring ene-insulating sleeve umzuzu omnye kwaye akukho nto ibonakalayo. | |
| Ukunyamezela | Faka i-ripple current elinganisiweyo kwi-capacitor ene-voltage engadluli kwi-voltage elinganisiweyo phantsi kwe-85 ℃ kwaye ufake i-voltage elinganisiweyo iiyure ezingama-3000, uze ubuyisele kwi-20 ℃ kwaye iziphumo zovavanyo kufuneka zanelise iimfuno ezingezantsi. | |
| Izinga lokutshintsha kwamandla (△C) | ≤ ixabiso lokuqala 土20% | |
| I-DF (tgδ) | ≤200% yexabiso lokuqala lenkcazo | |
| Umsinga wokuvuza (LC) | ≤ixabiso lokuqala leenkcukacha | |
| Beka ubomi kwishelufa | I-capacitor igcinwa kwindawo engama-85 ℃ kangangeeyure ezili-1000, emva koko ivavanywe kwindawo engama-20 ℃ kwaye iziphumo zovavanyo kufuneka zanelise iimfuno ezingezantsi. | |
| Izinga lokutshintsha kwamandla (△C) | ≤ ixabiso lokuqala 土20% | |
| I-DF (tgδ) | ≤200% yexabiso lokuqala lenkcazo | |
| Umsinga wokuvuza (LC) | ≤ixabiso lokuqala leenkcukacha | |
| (Unyango lwangaphambi kweVoltage kufuneka lwenziwe ngaphambi kovavanyo: faka i-voltage elinganisiweyo kuzo zombini iziphelo ze-capacitor nge-resister emalunga ne-1000Ω kangangeyure e-1, uze ukhuphe umbane nge-resister ye-1Ω/V emva konyango lwangaphambi konyango. Beka phantsi kobushushu obuqhelekileyo iiyure ezingama-24 emva kokukhupha ngokupheleleyo, uze uqale uvavanyo.) | ||
Umzobo Wemilinganiselo Yemveliso
Ubukhulu (Iyunithi:mm)
| D(mm) | 51 | 64 | 77 | 90 | 101 |
| I-P(mm) | 22 | 28.3 | 32 | 32 | 41 |
| Isikrufu | M5 | M5 | M5 | M6 | M8 |
| Ububanzi besiphelo (mm) | 13 | 13 | 13 | 17 | 17 |
| I-Torque(nm) | 2.2 | 2.2 | 2.2 | 3.5 | 7.5 |
| Ububanzi(mm) | I-A(mm) | B(mm) | i(mm) | b(mm) | h(mm) |
| 51 | 31.8 | 36.5 | 7 | 4.5 | 14 |
| 64 | 38.1 | 42.5 | 7 | 4.5 | 14 |
| 77 | 44.5 | 49.2 | 7 | 4.5 | 14 |
| 90 | 50.8 | 55.6 | 7 | 4.5 | 14 |
| 101 | 56.5 | 63.4 | 7 | 4.5 | 14 |
Ipharamitha yoLungiso lwangoku lweRipple
I-Coefficient yoLungiso lweFrequency yeRipple Current ekalisiweyo
| Ireyithi (Hz) | 50Hz | 120Hz | 500Hz | 1KHz | EOKHz |
| I-Coefficient | 0.7 | 1 | 1.2 | 1.25 | 1.4 |
I-Coefficient yoLungiso lobushushu be-Ripple Current elinganisiweyo
| Ubushushu (℃) | 40℃ | 60℃ | 85℃ |
| I-Coefficient | 1.89 | 1.67 | 1 |
Ii-capacitors ze-Aluminium ze-EH3 Series Bolt-on: Isisombululo esinoqoqosho kwiiNkqubo zamandla ezimboni
Kwi-elektroniki yamandla emizi-mveliso, ukukhethwa kwee-capacitors ezine-voltage ephezulu, ezinomthamo ophezulu kudla ngokufuna ulungelelwano phakathi kokusebenza, ubomi, kunye neendleko. Kwizicelo apho iimfuno zobomi zingabi ngqongqo kangako kodwa ukusebenza kwe-voltage ephezulu okuthembekileyo kusafuneka, ii-capacitors ze-aluminium electrolytic ze-YMIN EH3 series bolt-on zibonelela ngesisombululo esinomtsalane kakhulu. Ngelixa zigcina iimpawu zokusebenza eziphezulu ze-EH series, le mveliso ifikelela kumlinganiselo wexabiso nokusebenza okhuphisanayo ngakumbi ngoyilo oluphuculweyo, okwenza ukuba ibe lukhetho olufanelekileyo kwizicelo zoshishino ezifunekayo phakathi.
Indawo yeMveliso kunye neempawu eziphambili
Ii-capacitor ze-electrolytic ze-aluminium ze-EH3 series bolt-on zenzelwe ukubonelela abasebenzisi ngeenzuzo zoqoqosho ezifanelekileyo ngelixa beqinisekisa iimfuno zokusebenza ezisisiseko. Ngoluhlu lwe-voltage olulinganisiweyo oluvela kwi-550V ukuya kwi-630V kunye namandla aqala kwi-1000μF ukuya kwi-10,000μF, olu luhlu luhlangabezana ngokupheleleyo neemfuno ze-capacitor ezisisiseko ze-voltage ephezulu, amandla aphezulu kwizixhobo ezininzi zoshishino. Ubomi bayo boyilo beeyure ezingama-3000 kwi-85°C buyanele kwizicelo ezininzi zoshishino, ngakumbi ezo zinemijikelo emifutshane yokutshintshwa kwezixhobo okanye ukusebenza okwethutyana.
Eyona nto iphawulekayo kolu luhlu yilifa lalo leenzuzo zoyilo oluphezulu lwe-EH series. Ngelixa ibhasi yesiqhelo ye-1200V DC idla ngokufuna ii-capacitor ezintathu ze-400V ezidityanisiweyo kuluhlu, uthotho lwe-EH3 lufuna ii-capacitor ezimbini kuphela kuluhlu. Olu yilo alupheleli nje ekwenzeni lula ulwakhiwo lwenkqubo kwaye lunciphise inani leenxalenye, kodwa okubaluleke ngakumbi, luphucula ukuthembeka kwenkqubo. Iinxalenye ezimbalwa zoluhlu zithetha ukuba kukho iindawo ezimbalwa zokusilela, ngaloo ndlela kwandisa i-MTBF (ixesha eliphakathi phakathi kokusilela) kwenkqubo yonke ye-elektroniki yamandla.
Iiparameters zobugcisa kunye nokusebenza
Ngokweeparameter zobugcisa, uthotho lwe-EH3 lugcina amanqanaba afanelekileyo kwizalathisi zokusebenza eziphambili. Umsinga wokuvuza ulawulwa ngaphakathi kwe-1.5mA okanye i-0.01CV, ukuqinisekisa uzinzo lwexesha elide lwe-capacitor. I-tangent yokulahleka ayidluli kwi-0.3 kwi-20°C kunye ne-120Hz, ebonisa ukusebenza kakuhle kombane kwemveliso. Ngokukodwa, ukusebenza kwayo kubushushu obuphantsi, kunye nesantya sokugcina amandla esingaphantsi kwama-50% kwi--25°C, kuqinisekisa ukusebenza okuthembekileyo kwiindawo ezinzima.
Ukuphathwa komsinga weRipple sisalathisi esibalulekileyo sokusebenza kwee-capacitors zamandla. Ukuthatha umzekelo we-EH32L103ANNGG26M8, umsinga wayo we-ripple olinganiselweyo ufikelela kwi-28,980 mA, uhlangabezana ngokupheleleyo neemfuno zezicelo ezininzi zoshishino. I-factor yokulungiswa kwamaza emveliso ibonisa ukuba ukusebenza kwe-capacitor kuphuculwe ngakumbi kumaza aphezulu, kufikelela kwi-factor yokulungiswa ye-1.4 kwi-10 kHz, okubonelela ngomda wokusebenza owongezelelweyo kwizicelo zamaza aphezulu.
Iimpawu zoYilo lweZakhiwo kunye noKhuseleko
Olu luhlu lwe-EH3 lusebenzisa uyilo lwesiphelo oluqhelekileyo olufana nesikrufu, olubonelela ngobukhulu obahlukeneyo besiphelo ukusuka kwi-M5 ukuya kwi-M8, kunye ne-torque ephezulu ye-7.5 N·m. Olu yilo luqinisekisa uqhagamshelo oluthembekileyo phantsi kweemeko zamandla aphezulu kwaye lwenza kube lula ukufakelwa kunye nokugcinwa. Indlu engaqhumiyo ikhulula uxinzelelo ngokukhuselekileyo xa kukho ukunyuka okungaqhelekanga koxinzelelo lwangaphakathi, okuthintela ngempumelelo amathuba okuqhekeka kwendlu.
Ngokuphathelele ukusebenza kwe-insulation, i-insulation voltage phakathi kwe-terminal kunye ne-housing ifikelela kwi-2000V AC, idlula kakhulu iimfuno eziqhelekileyo zesicelo kwaye inika isiqinisekiso esaneleyo sokhuseleko lwenkqubo. Ukumelana kwe-insulation ubuncinane yi-100 MΩ, okuqinisekisa ukuhlukaniswa okuthembekileyo kwiindawo ezinzima ezifana nokufuma. Uyilo lwezi mpawu zokhuseleko lubonisa ukuqonda okunzulu kweemfuno zokwenyani zezicelo zoshishino.
Uhlalutyo lweMeko yesicelo
Olu luhlu lwe-EH3 lufanelekile ngokukodwa kwizicelo ezinoxabiso oluphantsi ezingavumiyo ukuyekelela ekusebenzeni okusisiseko. Kwicandelo le-inverter yemizi-mveliso, ngakumbi kwizicelo ezineeyure zokusebenza ezingadluli kwiiyure ezisibhozo ngosuku, ubomi beeyure ezingama-3,000 zoluhlu lwe-EH3 bufikelela ngokupheleleyo kwiminyaka emi-3-5 yokusetyenziswa. Xa kuthelekiswa neemveliso ezinemilinganiselo ephezulu yobomi, olu khetho lunciphisa kakhulu iindleko zezixhobo ngelixa lugcina ukuthembeka okusisiseko.
Olu luhlu lwe-EH3 lukwabonisa ukufaneleka okugqwesileyo kwiinkqubo ze-UPS ezikumgangatho wezorhwebo. Ezi nkqubo ngokubanzi azifuni ukusebenza okufanayo neenkqubo ezikumgangatho wezoshishino, kodwa iimfuno zokusebenza ezisisiseko zee-capacitors ezine-voltage ephezulu nezinamandla aphezulu zisekho. Nangona zihlangabezana nezi mfuno zisisiseko, ukusebenza kakuhle kweendleko koluhlu lwe-EH3 kunika abavelisi be-UPS isisombululo esikhuphisanayo ngakumbi.
Izixhobo zokuwelda zoshishino lolunye uhlobo oluqhelekileyo lokusebenza. Olu hlobo lwezixhobo ludla ngokuba nemijikelo emifutshane yokusebenza kodwa lufuna amandla aphezulu ombane avela kwii-capacitors. Iimpawu zokuphatha umbane we-ripple series ze-EH3 ziyenza ifaneleke kakuhle le ndlela yokusebenza, ngelixa ukusebenza kwayo kakuhle kunceda ukuphucula ukhuphiswano lwemarike lweemveliso zezixhobo zokuwelda.
Ukuqinisekiswa kokuthembeka kunye noQinisekiso loMgangatho
Nangona uthotho lwe-EH3 lubekwe njengemveliso engabizi kakhulu, alunangxaki ekuthembekeni. Emva kovavanyo oluqinileyo lokuqina, imveliso yavavanywa kubushushu obuphakathi obuyi-85°C, kusetyenziswa i-voltage elinganisiweyo kunye nomsinga we-ripple. Emva kweeyure ezingama-3000 zokusebenza ngokuqhubekayo, utshintsho lwe-capacitance aluzange ludlule kwi-±20%, i-tangent yokulahleka ayidlulanga kwi-200% yenkcazo yokuqala, kwaye umsinga wokuvuza wahlala ngaphakathi kwenkcazo yokuqala. Ezi ziphumo zovavanyo zibonisa ukuthembeka kwemveliso kuyo yonke i-lifecycle yoyilo lwayo.
Ngokuphathelele imveliso, i-YMIN isebenzisa iinkqubo zokuvelisa ezivuthiweyo kunye nenkqubo yokulawula umgangatho engqongqo. Ukususela ekukrolweni kwefoyile ye-aluminium ukuya ekubunjweni kwe-electrolyte, ukusuka ekujijelweni kwephakheji engundoqo ukuya ekutywinweni kokugqibela kunye nokupakishwa, inyathelo ngalinye liyilwe ngononophelo kwaye lilawulwa ngokungqongqo. Nangona iinkalo ezithile ziphuculwe xa kuthelekiswa nochungechunge lwe-EH6 oluphezulu ukuya kwiindleko zokulawula, imigangatho yomgangatho esisiseko ayifakwanga phantsi.
Uhlalutyo lweNdawo yeMarike kunye neXabiso
Olu luhlu lwe-EH3 lunendlela ecacileyo yokumaketha: lubonelela ngesisombululo esingabizi kakhulu kwizicelo ezifuna ii-capacitors ezine-voltage ephezulu, ezinomthamo ophezulu kodwa ezingadingi mfuneko yobomi obuqinileyo. Olu luhlu lwenza ukuba lukhuphisane kakhulu kwiinxalenye ezininzi zemarike.
Ngokwembono yexabiso lomsebenzisi, ukukhetha uthotho lwe-EH3 kuthetha ukuphucula iindleko ngelixa kuqinisekiswa ukusebenza okubalulekileyo. Kubavelisi bezixhobo, olu khetho alunciphisi nje kuphela iindleko zezinto kodwa lunokunceda ekufumaneni isabelo semarike ngamaxabiso akhuphisanayo ngakumbi. Kubasebenzisi bokugqibela, nangona ubomi boyilo lwemveliso bufutshane, yanele usetyenziso oluninzi, kwaye ixabiso layo eliphantsi lisenokubonelela ngeenzuzo ngokweendleko zomjikelo wobomi.
Iingenelo zoqoqosho zothotho lwe-EH3 zibonakala ngakumbi kumashishini anemijikelo emifutshane yokutshintshwa kwezixhobo okanye kwizicelo apho izixhobo ngokwazo zingabalulekanga kangako. Ezi zicelo zihlala zingahlawuli iindleko ezongezelelweyo ixesha elide, kwaye indawo yothotho lwe-EH3 iyahlangabezana ngokuchanekileyo nezi mfuno.
Iindlela zobuchwephesha kunye neMbono yexesha elizayo
Njengoko izixhobo zoshishino ziya zisanda ngokwahluka, imfuno yezinto ezisetyenzisiweyo nayo iya ihlukana. Ifilosofi yoyilo lwe-EH3 series yokulungiselela iimveliso ngokweemfuno ezithile imele indlela entsha kushishino lwezinto ezisetyenzisiweyo. Kwixesha elizayo, sinokubona iimveliso ezininzi zilungiselelwe ngokukodwa iimeko ezahlukeneyo zesicelo.
Ngokuphathelele ubuchwepheshe, nangona uthotho lwe-EH3 okwangoku lubekwe njengemveliso enoqoqosho, iiparameter zayo zokusebenza kulindeleke ukuba ziphuculwe ngakumbi ngokuqhubela phambili ubuchwepheshe bezinto kunye neenkqubo zokuvelisa. Umzekelo, iimveliso ezintsha zinokuziswa kwixesha elizayo ezandisa ubomi benkonzo ngelixa zigcina amanqanaba eendleko zangoku. Olu phuhliso lobuchwepheshe luya kuphucula ngakumbi ukhuphiswano lwemarike yemveliso.
Ii-capacitor ze-aluminium ze-electrolytic ze-YMIN EH3 series bolt-on, ngokusebenzisa indawo echanekileyo yemarike kunye noyilo lwemveliso, zifikelela kwibhalansi efanelekileyo phakathi kokusebenza, ubomi, kunye neendleko. Le mveliso ayihlangabezani nje kuphela neemfuno zeemeko ezithile zesicelo, kodwa ifilosofi yayo yoyilo ikwabonelela ngereferensi ebalulekileyo yophuhliso lweshishini lezinto zoshishino. Njengoko iimeko zezicelo zoshishino ziqhubeka nokukhula kwaye zihlukaniswa, ezi mveliso zilungiselelwe iimfuno ezithile ziya kudlala indima ebaluleke ngakumbi.
| Inombolo yeMveliso | Ubushushu bokusebenza (℃) | I-Voltage (V.DC) | Ubungakanani bomthamo (uF) | Ububanzi(mm) | Ubude (mm) | Umsinga ovuzayo (uA) | Umlinganiselo we-ripple current [mA/rms] | I-ESR/ Impedance [Ωmax] | Ubomi (iiyure) |
| EH32L102ANNCG07M5 | -25~85 | 550 | 1000 | 51 | 96 | 2225 | 4950 | 0.23 | 3000 |
| EH32L122ANNCG09M5 | -25~85 | 550 | 1200 | 51 | 105 | 2437 | 5750 | 0.21 | 3000 |
| EH32L152ANNCG11M5 | -25~85 | 550 | 1500 | 51 | 115 | 2725 | 6900 | 0.195 | 3000 |
| EH32L182ANNCG14M5 | -25~85 | 550 | 1800 | 51 | 130 | 2985 | 7710 | 0.168 | 3000 |
| EH32L222ANNDG10M5 | -25~85 | 550 | 2200 | 64 | 110 | 3300 | 9200 | 0.151 | 3000 |
| EH32L272ANNEG08M5 | -25~85 | 550 | 2700 | 77 | 100 | 3656 | 10810 | 0.11 | 3000 |
| EH32L332ANNEG12M5 | -25~85 | 550 | 3300 | 77 | 120 | 4042 | 12650 | 0.09 | 3000 |
| EH32L392ANNEG14M5 | -25~85 | 550 | 3900 | 77 | 130 | 4394 | 14380 | 0.067 | 3000 |
| EH32L392ANNFG10M6 | -25~85 | 550 | 3900 | 90 | 110 | 4394 | 13950 | 0.068 | 3000 |
| EH32L472ANNFG12M6 | -25~85 | 550 | 4700 | 90 | 120 | 4823 | 16680 | 0.057 | 3000 |
| EH32L562ANNFG18M6 | -25~85 | 550 | 5600 | 90 | 150 | 5265 | 19090 | 0.043 | 3000 |
| EH32L682ANNFG23M6 | -25~85 | 550 | 6800 | 90 | 170 | 5802 | 22430 | 0.036 | 3000 |
| EH32L822ANNFG26M6 | -25~85 | 550 | 8200 | 90 | 190 | 6371 | 24840 | 0.031 | 3000 |
| EH32L103ANNGG26M8 | -25~85 | 550 | 10000 | 101 | 190 | 7036 | 28980 | 0.029 | 3000 |
| EH32M102ANNCG10M5 | -25~85 | 600 | 1000 | 51 | 110 | 2324 | 5650 | 0.25 | 3000 |
| EH32M122ANNCG14M5 | -25~85 | 600 | 1200 | 51 | 130 | 2546 | 7080 | 0.235 | 3000 |
| EH32M152ANNCG18M5 | -25~85 | 600 | 1500 | 51 | 150 | 2846 | 8570 | 0.218 | 3000 |
| EH32M182ANNDG11M5 | -25~85 | 600 | 1800 | 64 | 115 | 3118 | 10280 | 0.19 | 3000 |
| EH32M222ANNEG06M5 | -25~85 | 600 | 2200 | 77 | 90 | 3447 | 12700 | 0.16 | 3000 |
| EH32M272ANNEG09M5 | -25~85 | 600 | 2700 | 77 | 105 | 3818 | 14920 | 0.131 | 3000 |
| EH32M332ANNEG12M5 | -25~85 | 600 | 3300 | 77 | 120 | 4221 | 16610 | 0.096 | 3000 |
| EH32M392ANNEG16M5 | -25~85 | 600 | 3900 | 77 | 140 | 4589 | 19350 | 0.07 | 3000 |
| EH32M472ANNEG19M5 | -25~85 | 600 | 4700 | 77 | 155 | 5038 | 20520 | 0.066 | 3000 |
| EH32M562ANNFG19M6 | -25~85 | 600 | 5600 | 90 | 155 | 5499 | 24840 | 0.046 | 3000 |
| EH32M682ANNFG25M6 | -25~85 | 600 | 6800 | 90 | 180 | 6060 | 25810 | 0.041 | 3000 |
| EH32J102ANNDG08M5 | -25~85 | 630 | 1000 | 64 | 100 | 2381 | 4370 | 0.27 | 3000 |
| EH32J122ANNDG11M5 | -25~85 | 630 | 1200 | 64 | 115 | 2608 | 4720 | 0.25 | 3000 |
| EH32J152ANNEG08M5 | -25~85 | 630 | 1500 | 77 | 100 | 2916 | 5870 | 0.231 | 3000 |
| EH32J182ANNEG11M5 | -25~85 | 630 | 1800 | 77 | 115 | 3195 | 6560 | 0.205 | 3000 |
| EH32J222ANNEG14M5 | -25~85 | 630 | 2200 | 77 | 130 | 3532 | 7480 | 0.165 | 3000 |
| EH32J222ANNFG11M6 | -25~85 | 630 | 2200 | 90 | 115 | 3532 | 7260 | 0.171 | 3000 |
| EH32J272ANNFG14M6 | -25~85 | 630 | 2700 | 90 | 130 | 3913 | 9200 | 0.143 | 3000 |
| EH32J332ANNFG18M6 | -25~85 | 630 | 3300 | 90 | 150 | 4326 | 10580 | 0.11 | 3000 |
| EH32J392ANNFG21M6 | -25~85 | 630 | 3900 | 90 | 160 | 4702 | 12080 | 0.085 | 3000 |
| EH32J472ANNFG23M6 | -25~85 | 630 | 4700 | 90 | 170 | 5162 | 13110 | 0.07 | 3000 |
| EH32J472ANNGG18M8 | -25~85 | 630 | 4700 | 101 | 150 | 5162 | 13270 | 0.068 | 3000 |
| EH32J562ANNGG26M8 | -25~85 | 630 | 5600 | 101 | 190 | 5635 | 15300 | 0.056 | 3000 |
